Cueing device and method for treating walking disorders

ABSTRACT

Devices used to cue a user to take a step when experiencing a walking disorder, such as a freezing of gait episode, are disclosed. The devices are configured to cue the user with a visual and/or audible cue. The devices include an activation module and a cueing module. The cueing module includes a metronome and a laser light source. The devices are mounted on an assistive mobility device or on the user.

CROSS-REFERENCE

This application is a continuation of U.S. patent application Ser. No.16/570,155, filed on Sep. 13, 2019, which claims the benefit of U.S.Provisional Application No. 62/731,713, filed on Sep. 14, 2018, both ofwhich are hereby incorporated by reference in their entirety.

SUMMARY

Some aspects of the present disclosure provide a device for treatment ofa walking disorder, comprising: an activation module comprising: anaudible cueing activation switch; and a visual cueing activation switch;and a cueing module comprising: a cadence control potentiometer, avolume control potentiometer; and a laser light source.

INCORPORATION BY REFERENCE

All publications, patents, and patent applications mentioned in thisspecification are herein incorporated by reference to the same extent asif each individual publication, patent, or patent application wasspecifically and individually indicated to be incorporated by reference.To the extent publications and patents or patent applicationsincorporated by reference contradict the disclosure contained in thespecification, the specification is intended to supersede and/or takeprecedence over any such contradictory material.

BRIEF DESCRIPTION OF THE DRAWINGS

The embodiments disclosed herein will become more fully apparent fromthe following description and appended claims, taken in conjunction withthe accompanying drawings. These drawings depict only typicalembodiments, which will be described with additional specificity anddetail through use of the accompanying drawings in which:

FIG. 1 is a perspective view of an embodiment of a cueing device.

FIG. 2 is a perspective exploded view of cueing device of FIG. 1 .

FIG. 3 is a block diagram of a control system of the cueing device ofFIG. 1 .

FIG. 4 is a perspective view of the cueing device of FIG. 1 mounted to awalker.

FIG. 5 is a perspective view of the cueing device of FIG. 1 mounted to acane.

FIG. 6A is a perspective view of another embodiment of a cueing device.

FIG. 6B is a perspective view of the cueing device of FIG. 6A mounted toa belt of a user.

FIG. 7A is a perspective view of another embodiment of a cueing device.

FIG. 7B is a perspective view of the curing device of FIG. 7A mounted toa wrist of a user.

DETAILED DESCRIPTION

Gait irregularities, such as freezing of gait (FOG) or akinesia, canoccur in people who suffer from neurological diseases such asParkinson's disease, cerebral palsy, and multiple sclerosis.Particularly for sufferers of Parkinson's disease, gait irregularitytypically occurs when walking in familiar surroundings and in tightcorners or doorways, and typically occurs as a brief unexpectedinability to walk. This not only interrupts daily life, but often causesaccidents, such as falls.

An apparatus to mitigate FOG or other walking disorders may include acueing device comprising an activation module and a cueing module. Theactivation module may be disposed adjacent a handle bar of an assistivemobility device such as a walker or cane such that the activation moduleis within easy reach of a user's fingers. The activation module may beconfigured to activate an audible cue and a visual cue. The audible cuemay be a click or chirp from a metronome and the visual cue may be aline projected onto a walking surface by a laser light source. Thecueing module may be adjustably coupled to a lower portion of a forwardleg or back leg of the walker or a shaft of the cane. The cueing modulemay include a laser light source, a metronome, and a speaker. Apotentiometer may control a cadence rate of the metronome and anotherpotentiometer may control the volume output of the speaker. The laserlight source may be adjustable relative to a longitudinal axis of thecueing module such that the position of the projected line relative tothe user may be adjusted. An adjustable length cable may couple theactivation module to the cueing module such that the modules are inelectronic communication.

In use, the device to mitigate FOG may be coupled to an assistivemobility device with the activation module positioned adjacent theuser's fingers and the cueing module above the walking surface. Thedevice may be powered on by activating a power switch on the cueingmodule. The cadence rate of the metronome and the speaker volume may beadjusted to a suitable rate and volume by rotating a corresponding knobon the cueing module. The user may activate either the metronome or thelaser light source or both by depressing a corresponding button on theactivation module prior to initiating walking. Alternatively, the usermay activate either the metronome or the laser light source or bothafter encountering a FOG episode.

Embodiments may be understood by reference to the drawings, wherein likeparts are designated by like numerals throughout. It will be readilyunderstood by one of ordinary skill in the art having the benefit ofthis disclosure that the components of the embodiments, as generallydescribed and illustrated in the figures herein, could be arranged anddesigned in a wide variety of different configurations. Thus, thefollowing more detailed description of various embodiments, asrepresented in the figures, is not intended to limit the scope of thedisclosure, but is merely representative of various embodiments. Whilethe various aspects of the embodiments are presented in drawings, thedrawings are not necessarily drawn to scale unless specificallyindicated.

It will be appreciated that various features are sometimes groupedtogether in a single embodiment, figure, or description thereof for thepurpose of streamlining the disclosure. Many of these features may beused alone and/or in combination with one another.

The phrases “coupled to” and “in communication with” refer to any formof interaction between two or more entities, including mechanical,electrical, magnetic, electromagnetic, fluid, and thermal interaction.Two components may be coupled to or in communication with each othereven though they are not in direct contact with each other. For example,two components may be coupled to or in communication with each otherthrough an intermediate component.

The directional terms “distal” and “proximal” are given their ordinarymeaning in the art. That is, the distal end of a medical device meansthe end of the device furthest from the practitioner or user during use.The proximal end refers to the opposite end, or the end nearest thepractitioner during use. As specifically applied to the cueing module ofa cueing device, the proximal end of the cueing module refers to the endaway from the walking surface and the distal end refers to the oppositeend, the end nearest the walking surface.

FIGS. 1-7B illustrate different views of several cueing devices andrelated components. In certain views each device may be coupled to, orshown with, additional components not included in every view. Further,in some views only selected components are illustrated, to providedetail into the relationship of the components. Some components may beshown in multiple views but not discussed in connection with every view.Disclosure provided in connection with any figure is relevant andapplicable to disclosure provided in connection with any other figure orembodiment.

FIGS. 1-5 depict one embodiment of a cueing device 100. In theillustrated embodiment, the cueing device 100 includes three broadgroups of components; each group may have numerous subcomponents andparts. The three broad component groups are: an activation module 110, acueing module 130, and a cable 160.

As illustrated in FIGS. 1-2 , the activation module 110 includes ahousing 111, an audible cueing activation switch or metronome activationswitch 114, a visual cueing activation switch or laser light sourceactivation switch 117, and a universal serial bus (USB) port 112. Inother embodiments, the activation module 110 may include a music cueingactivation switch. The housing 111 may be in a shape of a square boxhaving side dimensions of about 1.25 inches and a depth dimension ofabout 0.75 inch or other suitable dimensions that are within the scopeof this disclosure. In other embodiments, the housing 111 may be formedin the shape of a circle, a rectangle, an oval, or other geometries thatare likewise within the scope of this disclosure. The housing 111 mayinclude a front portion and a back portion that are coupled using anysuitable technique, such as snap fit, friction fit, welding, bonding,etc. The housing 111 can be formed from any suitable plastic material,such as polycarbonate, polypropylene, acrylonitrile butadiene styrene,acrylic, polyurethane, etc., or metal material, such as steel, aluminum,etc. The housing 111 may be formed using any suitable manufacturingmethod, such as machining, thermal injection molding, reactive injectionmolding, thermoforming, stamping, casting, 3-D printing, multi jetfusion, etc.

The audible cueing activation switch 114 and the visual cueingactivation switch 117 are disposed within the housing 111. The switches114, 117 are configured to activate a metronome 144 and a laser lightsource 141 of the cueing module 130, respectively. The switches 114, 117may each include a button 115, 118 disposed within the front portion ofthe housing 111. The buttons 115, 118 may be configured to be depressedby a user to engage the switches 114, 117 when activation of themetronome 144 and/or laser light source 141 is desired. An audiblecueing activation indicium 116 may be disposed on the button 115 oradjacent the button 115 on the housing 111. The indicium 116 mayrepresent a walking person or any other suitable image. A visual cueingactivation indicium 119 may be disposed on the button 118 or adjacentthe button 118 on the housing 111. The indicium 119 may represent auniversal accepted symbol for a laser (e.g., starburst) or any othersuitable image. In another embodiment, an indicator light may bedisposed adjacent the buttons 115, 118 to provide indication ofactivation of the audible cueing activation switch 114 and/or the visualcueing activation switch 117. In other embodiments, the activationmodule 110 may be in electronic communication with an external controldevice such as a smart phone, tablet, etc. using any suitable wirelesslocal area networking technique where the external control device isused to activate the metronome 144 and the laser light source 141.

The USB port 112 is disposed on a side of the housing 111. The USB port112 is configured to couple with a USB connector 161 of the cable 160such that the activation module 110 and the cueing module 130 are inelectrical communication. In other embodiments, the activation module110 and the cueing module 130 may be in wireless communication using anysuitable wireless local area networking technique. In certainembodiments, the activation module 110 receives power from the cueingmodule 130 through the USB port 112. In other embodiments, theactivation module 110 may include a power source (e.g., batteries).

The housing 111 includes mushroom-shaped projections 113 extending fromopposite sides of the housing 111. The projections 113 may be configuredto facilitate coupling of the activation module 110 to an assistivemobility device 180. (See FIGS. 4 and 5 .) An elastomeric member 152 maybe coupled to the projections 113 and extend around a portion of theassistive mobility device 180. In other embodiments, the projections 113may be in the form of hooks, clips, elbows, etc. In still otherembodiments, the projections 113 may comprise a hook-and-loop materialconfigured to couple with a band of hook-and-loop material.

As depicted in the illustrated embodiment of FIGS. 1-2 , the cueingmodule 130 includes a housing 131, the metronome 144, the laser lightsource 141, a power switch 132, a power source 147, a processor 146, ametronome potentiometer 135, a speaker 145, a speaker volumepotentiometer 138, and a micro USB port 133. The housing 131 may be in ashape of a rectangular box having a length dimension of about 4.00inches, a width dimension of about 2.00 inches, and a depth dimension ofabout 1.75 inches or other suitable dimensions that are within the scopeof this disclosure. In other embodiments, the housing 131 may be formedin the shape of a circle, a rectangle, an oval, or other geometries thatare likewise within the scope of this disclosure. The housing 131 mayinclude a front portion and a back portion that are coup led using anysuitable technique, such as snap fit, friction fit, welding, bonding,etc. The housing 131 can be formed from any suitable plastic material,such as polycarbonate, polypropylene, acrylonitrile butadiene styrene,acrylic, polyurethane, etc., or metal material, such as steel, aluminum,etc. The housing 131 may be formed using any suitable manufacturingmethod, such as machining, thermal injection molding, reactive injectionmolding, thermoforming, stamping, casting, 3-D printing, multi jetfusion, etc. The housing 131 may include a mounting bracket 150. Inother embodiments, the housing 131 may include a slide disposed on aside of the housing 131. The slide may be configured to slidingly engagewith the mounting bracket 150.

The metronome 144 is disposed within the housing 131 and electronicallycoupled to the audible cueing activation switch 114 of the activationmodule 110 via the cable 160. The metronome potentiometer 135 is coupledto the metronome 144 and configured to adjust a cadence rate output ofthe metronome 144. The metronome potentiometer 135 may be configured toadjust the cadence rate of the metronome 144 between about zero andabout 250 beats per minute, between about 10 and about 100 beats perminute, and about 20 and about 100 beats per minute. A metronomepotentiometer knob 136 is coupled to the metronome potentiometer 135 andis configured to be engaged by a user to adjust the cadence rate. Anindicium 137 may be disposed on the knob 136 or adjacent the knob 136 onthe housing 131. The indicium 137 may be an image of a walking person orother suitable images that are within the scope of this disclosure.

The speaker 145 may be disposed within the housing 131. The speaker 145may be in electronic communication with the metronome 144 and thespeaker volume potentiometer 138. The speaker volume potentiometer 138can be configured to adjust an output volume of the speaker 145 fromabout 50 decibels to about 65 decibels. The output sounds from themetronome 144 through the speaker 145 may be pings, blips, chimes,dings, clicks, chirps, claves, agogos, etc. In another embodiment, themetronome 144 may be in communication with an external device such asheadphones, ear buds, smart phone, tablet, hearing aids, etc. using anysuitable wireless local area networking technique. A speaker volumepotentiometer knob 139 is coupled to the metronome potentiometer 138 andis configured to be engaged by a user to adjust the output volume of thespeaker 145. An indicium 140 may be disposed on the knob 139 or adjacentthe knob 139 on the housing 131. The indicium 140 may be an image of astandard speaker symbol or other suitable images that are within thescope of this disclosure.

In other embodiments, the speaker 145 may be configured for output ofmusic or other recorded sounds configured to provide a rhythm or beat.The music or other recorded sounds may be stored in memory of theprocessor 146; wirelessly communicated to the processor 146 from anexternal device such as a smartphone, tablet, etc. using any suitablelocal area networking technique; or stored in memory of an externalmemory storage device such as a USB memory stick or flash drive.

In the illustrated embodiment, the laser light source 141 is disposed ata distal portion of the cueing module 130. The laser light source 141may include a laser diode configured to emit a red, orange, red-orange,blue, green, yellow, violet, etc. laser beam. As depicted in FIGS. 4 and5 , the laser beam may be projected onto a walking surface 103 as aprojected line 143. In certain embodiments, the laser light source 141may project two, three, four, or more projected lines 143. The projectedline 143 may be in the form of a solid line, a segmented or dashed line,a dotted line, or any other suitable form that provides cueing for auser. In some embodiments, the cueing module 130 may include a laserlight source potentiometer configured to adjust an intensity of thelaser light source 141 such that the projected line 143 is visible bythe user in darkened as well as lighted surroundings. In anotherembodiment, the cueing module 130 may include a light sensor that isconfigured to automatically adjust the intensity of the laser lightsource 141 dependent upon the lighting of the surroundings.

As depicted in the illustrated embodiment of FIGS. 1-2 , the laser lightsource 141 may be disposed within a holder 149 and configured to berotatably adjusted relative to a central longitudinal axis of the cueingmodule 130. The laser light source 141 may be in a neutral position whenthe laser light source 141 is aligned with the central longitudinal axisof the cueing module 130. The laser light source 141 may be in a forwardposition when it is rotationally adjusted forwardly up to about 80degrees such that the laser light source 141 may project forward of thecentral longitudinal axis. The laser light source 141 may be in arearward position when it is rotationally adjusted rearwardly up toabout 80 degrees such that the laser light source 141 may projectrearward of the central longitudinal axis. The position of the laserlight source 141 may be indicated by a position indicium 142. Theposition indicium 142 may be of any suitable form, such as a protrudingline, a groove, a printed line, etc.

The power switch 132 may be disposed at a proximal end of the cueingmodule 130 or at any other suitable surface. The power switch 132 may bein the form of a rocker switch where the cueing module 130 and theactivation module 110 are powered on when the power switch 132 isdepressed toward one side and powered off when the power switch 132 isdepressed toward an opposite side. In other embodiments, the powerswitch 132 may be in the form of any suitable on/off type of switch,such as a pushbutton, toggle, motion sensor, etc. The micro USB port 133may be disposed at a proximal end of the cueing module 130 or at anyother suitable location. The micro USB port 133 may be configured toreceive a micro USB connector 162 of the cable 160. The power source 147may be disposed within the housing 131. The power source 147 may be abattery pack of one, two, three, or more rechargeable batteries. Thepower source 147 may be recharged through the micro USB port 133 and thecable 160 when the cable 160 is coupled to the cueing module 130 at oneend and a power supply at the opposite end. Certain components of thecueing module 130 may alternatively be included in the activation module110. For example, the power switch 132, the metronome potentiometer 138,the speaker volume potentiometer 138, etc. may be included in anotherembodiment of a cueing device.

FIG. 1 depicts the cable 160 of the illustrated embodiment of the cueingdevice 100. The cable 160 is shown to include the USB connector 161, themicro USB connector 162, an adjustable member 163, and an elongateinsulated wire 164. The cable 160 is configured to provide electricalcommunication between the activation module 110 and the cueing module130. The USB connector 161 is disposed at one end of the insulated wire164 and configured to couple with the USB port 112 of the activationmodule 110. The USB connector 161 is also configured to couple with anexternal device such as a battery charging source, an external controldevice (e.g, smart phone), etc. The micro USB connector 162 is disposedat an opposite end of the insulated wire 164 and configured to couplewith the micro USB port 133 of the cueing module 130. The adjustablemember 163 is coupled to the insulated wire 164 and configured toautomatically adjust a length (longer or shorter) of the cable 160 asthe distance between the activation module 110 and the cueing module 130changes. The adjustable member 163 may be configured to remove slack ofthe cable 160 to prevent the cable 160 from being inadvertently snaggedwhen the cueing device 100 is in use. In the depicted embodiment, theadjustable member 163 is in the form of a retractable reel. In otherembodiments, the cable 160 may include any suitable type of adjustablemember 163, automatic or manual, such as a ratchet mechanism, a buckle,etc.

In another embodiment, the cueing device 100 may include sensorsconfigured to monitor a user's walking speed, number of steps taken,number of FOG events, time utilization of the cueing device 100, etc.The sensors may be disposed in either the activation module 110 and/orthe cueing module 130. Alternatively, the sensors may be couple to theuser and electronically coupled to the cueing device 100 using hardwireor wireless communication techniques. Data collected by the sensors maybe stored in a memory of the cueing device 100 or a removable memorymember and subsequently up loaded to a computer, smart phone, etc. foranalysis. Alternatively, the data may be up loaded to a computer, smartphone, etc. from the sensors on a real time basis using hardwire orwireless communication techniques.

FIG. 3 is a block diagram of a control system 170 of the cueing device100. The control system 170 includes various components of theactivation module 110 and the cueing module 130 as previously described.FIG. 3 illustrates the activation module 110 including the metronomeactivation switch 114 and the laser activation switch 117. The laseractivation switch 117 is in electrical communication with the laserlight source 141 of the cueing module 130. When the laser activationswitch 117 is actuated by the user, the laser light source 141 isactivated. The metronome activation switch 114 is in electricalcommunication with the processor 146 of the cueing module 130. Theprocessor 146 may be in electronic communication with the metronome 144.In another embodiment, the processor 146 and the metronome 144 may be anintegrated unit. The metronome potentiometer 135 is in electroniccommunication with the processor 146 and the metronome 144. The speakervolume potentiometer 138 is in electronic communication with theprocessor 146 and the speaker 145. The power source 147 is in electricalcommunication with the power switch 132 such that when the power switch132 is actuated, power can be supplied to the laser light source 141,the processor 146, the metronome 144, and the speaker 145.

FIG. 4 illustrates the cueing device 100 coupled to an assistivemobility device 180. In the illustrated embodiment of FIG. 4 , theassistive mobility device 180 is in the form of a walker 181. The cueingdevice 100 is shown coupled to the walker 181 with the cable 160extending between the modules 110, 130. The walker 181 includes a pairof forward legs 182, a pair of rearward legs 183, and a pair of handlebars 184 configured to be gripped by a user 101. As illustrated, theactivation module 110 is adjustably coupled to an upper portion of thewalker 181 adjacent the left or right handle bar 184 such that theactivation module 110 is within easy reach of a finger of the user 101.The activation module 110 may be coupled to the walker 181 using themushroom-shaped projections 113 and the elastomeric member 152. Othertechniques of coupling, such as hook-and-loop bands, adhesive, buckledstraps, etc., are within the scope of this disclosure.

The cueing module 130 can be adjustably coupled to a lower portion ofthe left or right forward leg 182 of the walker 181. In otherembodiments, the cueing module 130 may be adjustably coupled to a lowerportion of a left or right back leg of the walker 181. The cueing module130 may be coupled to the walker 181 using the mounting bracket 150. Themounting bracket 150 may be coupled to the walker 181 through use of theelastomeric member 152 coupled to hooks 151 disposed on sides of themounting bracket 150. Other techniques of coupling, such ashook-and-loop bands, adhesive, buckled straps, etc., are with the scopeof this disclosure.

The height of the cueing module 130 above the walking surface 103 can beadjusted such that intensity and the length of the projected line 143can be set to be easily visible by the user 101. The position of theprojected line 143 relative to the walker 181 can be adjusted byrotating the laser light source 141 forward to position the projectedline 143 forward of the walker 181 such that the user 101 may beprompted to take strides longer than when the laser light source 141 ispositioned in the neutral position. The laser light source 141 can berotated rearwardly to position the projected line 143 rearward of theforward legs 182 such that the user 101 may be prompted to take stridesshorter than when the laser light source 141 is positioned in theneutral position. The cueing module 130 can be oriented such that thelaser light source 141 projects either to the left or to the right.

FIG. 5 illustrates the cueing device 100 coupled to an assistivemobility device 180. In the illustrated embodiment of FIG. 5 , theassistive mobility device 180 is in the form of a cane 190. The cueingdevice 100 is shown coupled to the cane 190 with the cable 160 extendingbetween the modules 110, 130. The cane 190 includes a shaft 191 and ahandle 192 disposed at a proximal end of the shaft 191 and configured tobe gripped by the user 101. As illustrated, the activation module 110 isadjustably coupled to an upper portion of the shaft 191 adjacent thehandle 192 such that the activation module 110 is within easy reach of afinger of the user 101. The activation module 110 may be coupled to thecane 190 using the mushroom-shaped projections 113 and the elastomericmember 152. Other techniques of coupling, such as hook-and-loop bands,adhesive, buckled straps, etc., are with the scope of this disclosure.

The cueing module 130 can be adjustably coupled to a lower portion ofthe shaft 191 of the cane 190. The cueing module 130 may be coupled tothe cane 190 using the mounting bracket 150. The mounting bracket 150can include a slide receiver (not shown) configured to slidingly receivea slide 148 of the cueing module 130. The mounting bracket 150 may becoupled to the cane 190 through use of the elastomeric member 152coupled to hooks 151 disposed on sides of the mounting bracket 150.Other techniques of coupling, such as hook-and-loop bands, adhesive,buckled straps, etc., are with the scope of this disclosure.

The height of the cueing module 130 above the walking surface 103 can beadjusted such that the intensity and the length of the projected line143 can be set to be easily visible by the user 101. The position of theprojected line 143 relative to the cane 190 can be adjusted by rotatingthe laser light source 141 forward to position the projected line 143forward of the cane 190 such that the user 101 may be prompted to takestrides longer than when the laser light source 141 is positioned in theneutral position and the projected line 143 extends outwardly from theshaft 191. The laser light source 141 can be rotated rearwardly toposition the projected line 143 rearward of the shaft 191 such that theuser 101 may be prompted to take strides shorter than when the laserlight source 141 is position in the neutral position. The cueing module130 can be oriented such that the laser light source 141 projects eitherto the left or to the right to facilitate right-handed and left-handeduse of the cane 190 by the user 101.

In use, a cueing device can be coupled to the assistive mobility device.An activation module can be coupled adjacent the finger of a user to anupper portion of the assistive mobility device. A cueing module may becoupled to a lower portion of the assistive mobility device. The heightof the cueing module relative to a walking surface can be adjusted toallow for easy visualization of a projected line on the walking surfaceby the user. A cable may be coupled to the activation module at one endand the cueing module at the opposite end such that the modules are inelectrical communication. A laser light source may be oriented in theneutral position where the projected line is projected in a plane of thelongitudinal axis of the cueing module. Alternatively, the laser lightsource may be oriented forward or rearward of the longitudinal axis suchthat the projected line is projected either forward or rearward of theplane of the longitudinal axis.

The user may activate the laser light source by depressing a laseractivation button with a finger to project the projected line onto thewalking surface. Alternatively, or in parallel with activation of thelaser light source, the user may depress the metronome activation buttonwith a finger to activate the metronome. The cadence rate of themetronome can be increased or decreased by rotation of a knob by theuser. The output volume of the speaker may be increased or decreased byrotation of a second knob by the user. Following activation of the laserlight source and/or the metronome, the user may initiate walking withthe aid of the assistive mobility device. Upon experiencing an episodeof FOG, the user can be prompted or cued to take a step by the projectedimage and/or the output of the metronome from a speaker. In anotherembodiment, the laser light source and/or the metronome may be activatedby the user following experiencing a FOG episode such that the user isprompted or cued to take a step.

FIGS. 6A-6B depict an embodiment of a cueing device 200 that resemblesthe cueing device 100 described above in certain respects. Accordingly,like features are designated with like reference numerals, with theleading digit incremented to “2.” For example, the embodiment depictedin FIGS. 6A-6B includes a cueing module 230 that may, in some respects,resemble the cueing module 130 of FIG. 1 . Relevant disclosure set forthabove regarding similarly identified features thus may not be repeatedhereafter. Moreover, specific features of the cueing device 100 andrelated components shown in FIGS. 1-5 may not b e shown or identified bya reference numeral in the drawings or specifically discussed in thewritten description that follows. However, such features may clearly bethe same, or substantially the same, as features depicted in otherembodiments and/or described with respect to such embodiments.Accordingly, the relevant descriptions of such features apply equally tothe features of the cueing device 200 and related components depicted inFIGS. 6A-6B. Any suitable combination of the features, and variations ofthe same, described with respect to the cueing device 100 and relatedcomponents illustrated in FIGS. 1-5 can be employed with the cueingdevice 200 and related components of FIGS. 6A-6B, and vice versa. Thispattern of disclosure applies equally to further embodiments depicted insub sequent figures and described hereafter, wherein the leading digitsmay be further incremented.

FIGS. 6A-6B depict another embodiment of a cueing device 200. The cueingdevice 200 may be substantially an integration of the activation module110 and the cueing module 130 of the cueing device 100. In the depictedembodiment of FIGS. 6A-6B, the cueing device 200 includes a cueingmodule 230. The cueing module 230 includes a housing 231, a power switch232, a laser activation switch 217, a metronome activation switch 214, ametronome potentiometer 235, a speaker volume potentiometer 238, ametronome 244, a processor 246, a speaker 245, a laser light source 241,and a power source 247. The function of each of the listed features ofthe cueing module 230 is similar to the function of the like feature ofcueing module 130 as previously described.

The housing 231 includes a belt hook 253 disposed on a back side of thehousing 231. The belt hook 253 is configured to facilitate coupling ofthe cueing device 200 to a user 201 as depicted in FIG. 6B. The belthook 253 may extend over a belt, a waistband, a pocket, etc. Asillustrated in FIG. 6B, the cueing device 200 may be coupled to amid-portion of the user 201 such that the cueing device 200 facesforward of the user 201. In another embodiment, the cueing device 200may be coupled to a user's leg, chest, foot, etc. The laser light source241 may be configured to project a projected line 243 onto a walkingsurface 203. The projected line 243 may extend forward of the feet of auser 201 and perpendicular to a direction of travel. A distance from thefeet of the user 201 to the projected line 243 may be adjusted byadjusting a projection angle of the laser light source 241 relative to atransverse longitudinal axis of the cueing device 200.

In use, the user 201 may couple the cueing device 200 to a belt,waistband, or pocket using the belt hook 253. The power switch 232 maybe activated. The laser activation switch 217 and/or the metronomeactivation switch 214 may be activated. The metronome potentiometer 235may be adjusted to set a desired cadence. The speaker volumepotentiometer 238 may be adjusted to set a desired output volume fromthe speaker 245. The angle of projection of the laser light source 241may be adjusted to set a desired distance of the projected line 243 fromthe feet of the user 201. The cueing device 200 may cue or prompt theuser 201 to take a step when the user 201 encounters a FOG episode.

FIGS. 7A-7B depict another embodiment of a cueing device 300. The cueingdevice 300 may be substantially an integration of the activation module110 and the cueing module 130 of the cueing device 100. In the depictedembodiment of FIGS. 7A-7B, the cueing device 300 includes a cueingmodule 330. The cueing module 330 includes a housing 331, a power switch332, a laser activation switch 317, a metronome activation switch 314, ametronome potentiometer 335, a speaker volume potentiometer 338, ametronome 344, a processor 346, a speaker 345, a laser light source 341,and a power source 347. The function of each of the listed features ofthe cueing module 330 is similar to the function of the like feature ofcueing module 130 as previously described.

The housing 331 includes a wrist securement band 354 coupled to thehousing 331. The securement band 354 is configured to facilitatecoupling of the cueing device 300 to a user 301 as depicted in FIG. 7B.The securement band 354 may be any suitable band configured to bereleasably secured to the user 101. For example, the securement band 354may include hook- and loop material, a buckle, a resilient material,etc. The cueing device 300 may be coupled to either the left or rightwrist of the user 301 such that the laser light source 341 faces forwardof the user 301. The laser light source 341 may be configured to projecta projected line 343 onto a walking surface 303. The projected line 343may extend forward of the feet of the user 301 and perpendicular to adirection of travel. A distance from the feet of the user 301 to theprojected line 343 may be adjusted by adjusting an angle of the lowerarm relative to the body of the user 301.

In use, the user 301 may couple the cueing device 300 to the wrist usingthe securement band 354. The power switch 332 may be activated. Thelaser activation switch 317 and/or the metronome activation switch 314may be activated. The metronome potentiometer 335 may be adjusted to seta desired cadence. The speaker volume potentiometer 338 may be adjustedto set a desired output volume from the speaker 345. The angle ofprojection of the laser light source 341 may be adjusted to set adesired distance of the projected line 343 from the feet of the user 301by adjusting the angle of the lower arm relative to the body of the user301. The cueing device 300 may cue or prompt the user 301 to take a stepwhen the user 301 encounters a FOG episode.

Any methods disclosed herein comprise one or more steps or actions forperforming the described method. The method steps and/or actions may beinterchanged with one another. In other words, unless a specific orderof steps or actions is required for proper operation of the embodiment,the order and/or use of specific steps and/or actions may be modified.

References to approximations are made throughout this specification,such as by use of the term “substantially.” For each such reference, itis to be understood that, in some embodiments, the value, feature, orcharacteristic may be specified without approximation. For example,where qualifiers such as “about” and “substantially” are used, theseterms include within their scope the qualified words in the absence oftheir qualifiers. For example, where the term “substantiallyperpendicular” is recited with respect to a feature, it is understoodthat in further embodiments, the feature can have a preciselyperpendicular configuration.

Similarly, in the above description of embodiments, various features aresometimes grouped together in a single embodiment, figure, ordescription thereof for the purpose of streamlining the disclosure. Thismethod of disclosure, however, is not to be interpreted as reflecting anintention that any claim require more features than those expresslyrecited in that claim. Rather, as the following claims reflect,inventive aspects lie in a combination of fewer than all features of anysingle foregoing disclosed embodiment.

The claims following this written disclosure are hereby expresslyincorporated into the present written disclosure, with each claimstanding on its own as a separate embodiment. This disclosure includesall permutations of the independent claims with their dependent claims.Moreover, additional embodiments capable of derivation from theindependent and dependent claims that follow are also expresslyincorporated into the present written description.

What is claimed is:
 1. A device for treatment of a walking disorder,comprising: an activation module comprising: an audible cueingactivation switch; and a visual cueing activation switch; and a cueingmodule comprising: a cadence control potentiometer; a volume controlpotentiometer; and a laser light source.
 2. The device of claim 1,wherein the activation module and the cueing module are configured to becoupled to an assistive mobility device.
 3. The device of claim 2,wherein the activation module is adjustably coupled adjacent an upperportion of the assistive mobility device such that the audible cueingactivation switch and the visual cueing activation switch are withinreach of a user's finger.
 4. The device of claim 2, wherein the cueingmodule is adjustably coupled adjacent a lower portion of the assistivemobility device.
 5. The device of claim 1, wherein the laser lightsource is configured to project a laser light image onto a walkingsurface.
 6. The device of claim 5, wherein the laser light image is aline.
 7. The device of claim 1, wherein the laser light source isadjustable relative to a longitudinal axis of the cueing module.
 8. Thedevice of claim 7, wherein the laser light image is projected in axialalignment with a longitudinal axis of the cueing module when the laserlight source is in a neutral projecting position, at an angle of fromzero degrees to 80 degrees forward of the longitudinal axis when thelaser light source is in a forward projecting position, and at an angleof from zero degrees to 80 degrees rearward of the longitudinal axiswhen the laser light source is in a rearward projection position.
 9. Thedevice of claim 1, wherein the laser light source is rotatablyadjustable about a longitudinal axis of the cueing module.
 10. Thedevice of claim 1, wherein the activation module and the cueing modulecomprise a securement member configured to couple the activation moduleand the cueing module to the assistive mobility device.
 11. The deviceof claim 10, wherein the securement member comprises an elastomericband.
 12. The device of claim 1, wherein the audible cueing switch andthe visual cueing switch comprise a pushable button.
 13. The device ofclaim 12, wherein the pushable button comprises an indicium.
 14. Thedevice of claim 1, wherein the cadence control potentiometer and thevolume control potentiometer comprise a knob configured to be rotated byfingers of a user.
 15. The device of claim 1, further comprising ametronome disposed within the cueing module.
 16. The device of claim 15,wherein the cadence control potentiometer is coupled to the metronome,and wherein the cadence control potentiometer is configured to adjust anoutput rate of the metronome.
 17. The device of claim 15, wherein themetronome is configured to wirelessly communicate with any one of aheadphone, ear buds, smart phone, tablet, and hearing aid.
 18. Thedevice of claim 1, wherein the volume control potentiometer is coupledto a speaker disposed within the cueing module, and wherein the volumecontrol potentiometer is configured to adjust the output volume of thespeaker.
 19. The device of claim 1, further comprising a cable disposedbetween the activation module and the cueing module to electronicallycouple the activation module to the cueing module.
 20. The device ofclaim 19, wherein a length of the cable is adjustable.
 21. The device ofclaim 1, wherein the activation module and the cueing module areelectronically coupled through wireless communication.
 22. The device ofclaim 1, wherein the cueing module further comprises a power switch. 23.The device of claim 1, wherein the activation module and the cueingmodule are integrated into a control module.
 24. The device of claim 23,wherein the control module is coupled to the user and disposed at anyone of the user's waist, wrist, leg, chest, and head.